1 /*************************************************
2 * Exim - an Internet mail transport agent *
3 *************************************************/
5 /* Copyright (c) University of Cambridge 1995 - 2018 */
6 /* Copyright (c) The Exim maintainers 2019 - 2020 */
7 /* See the file NOTICE for conditions of use and distribution. */
9 /* Exim gets and frees all its store through these functions. In the original
10 implementation there was a lot of mallocing and freeing of small bits of store.
11 The philosophy has now changed to a scheme which includes the concept of
12 "stacking pools" of store. For the short-lived processes, there isn't any real
13 need to do any garbage collection, but the stack concept allows quick resetting
14 in places where this seems sensible.
16 Obviously the long-running processes (the daemon, the queue runner, and eximon)
17 must take care not to eat store.
19 The following different types of store are recognized:
21 . Long-lived, large blocks: This is implemented by retaining the original
22 malloc/free functions, and it used for permanent working buffers and for
23 getting blocks to cut up for the other types.
25 . Long-lived, small blocks: This is used for blocks that have to survive until
26 the process exits. It is implemented as a stacking pool (POOL_PERM). This is
27 functionally the same as store_malloc(), except that the store can't be
28 freed, but I expect it to be more efficient for handling small blocks.
30 . Short-lived, short blocks: Most of the dynamic store falls into this
31 category. It is implemented as a stacking pool (POOL_MAIN) which is reset
32 after accepting a message when multiple messages are received by a single
33 process. Resetting happens at some other times as well, usually fairly
34 locally after some specific processing that needs working store.
36 . There is a separate pool (POOL_SEARCH) that is used only for lookup storage.
37 This means it can be freed when search_tidyup() is called to close down all
40 . Orthogonal to the three pool types, there are two classes of memory: untainted
41 and tainted. The latter is used for values derived from untrusted input, and
42 the string-expansion mechanism refuses to operate on such values (obviously,
43 it can expand an untainted value to return a tainted result). The classes
44 are implemented by duplicating the three pool types. Pool resets are requested
45 against the nontainted sibling and apply to both siblings.
47 Only memory blocks requested for tainted use are regarded as tainted; anything
48 else (including stack auto variables) is untainted. Care is needed when coding
49 to not copy untrusted data into untainted memory, as downstream taint-checks
52 Intermediate layers (eg. the string functions) can test for taint, and use this
53 for ensurinng that results have proper state. For example the
54 string_vformat_trc() routing supporting the string_sprintf() interface will
55 recopy a string being built into a tainted allocation if it meets a %s for a
56 tainted argument. Any intermediate-layer function that (can) return a new
57 allocation should behave this way; returning a tainted result if any tainted
58 content is used. Intermediate-layer functions (eg. Ustrncpy) that modify
59 existing allocations fail if tainted data is written into an untainted area.
60 Users of functions that modify existing allocations should check if a tainted
61 source and an untainted destination is used, and fail instead (sprintf() being
67 /* keep config.h before memcheck.h, for NVALGRIND */
74 /* We need to know how to align blocks of data for general use. I'm not sure
75 how to get an alignment factor in general. In the current world, a value of 8
76 is probably right, and this is sizeof(double) on some systems and sizeof(void
77 *) on others, so take the larger of those. Since everything in this expression
78 is a constant, the compiler should optimize it to a simple constant wherever it
79 appears (I checked that gcc does do this). */
82 (sizeof(void *) > sizeof(double) ? sizeof(void *) : sizeof(double))
84 /* store_reset() will not free the following block if the last used block has
85 less than this much left in it. */
87 #define STOREPOOL_MIN_SIZE 256
89 /* Structure describing the beginning of each big block. */
91 typedef struct storeblock {
92 struct storeblock *next;
96 /* Just in case we find ourselves on a system where the structure above has a
97 length that is not a multiple of the alignment, set up a macro for the padded
100 #define ALIGNED_SIZEOF_STOREBLOCK \
101 (((sizeof(storeblock) + alignment - 1) / alignment) * alignment)
103 /* Size of block to get from malloc to carve up into smaller ones. This
104 must be a multiple of the alignment. We assume that 8192 is going to be
107 #define STORE_BLOCK_SIZE (8192 - ALIGNED_SIZEOF_STOREBLOCK)
109 /* Variables holding data for the local pools of store. The current pool number
110 is held in store_pool, which is global so that it can be changed from outside.
111 Setting the initial length values to -1 forces a malloc for the first call,
112 even if the length is zero (which is used for getting a point to reset to). */
114 int store_pool = POOL_MAIN;
117 static storeblock *chainbase[NPOOLS];
118 static storeblock *current_block[NPOOLS];
119 static void *next_yield[NPOOLS];
120 static int yield_length[NPOOLS] = { -1, -1, -1, -1, -1, -1 };
122 /* pool_malloc holds the amount of memory used by the store pools; this goes up
123 and down as store is reset or released. nonpool_malloc is the total got by
124 malloc from other calls; this doesn't go down because it is just freed by
127 static int pool_malloc;
128 static int nonpool_malloc;
130 /* This variable is set by store_get() to its yield, and by store_reset() to
131 NULL. This enables string_cat() to optimize its store handling for very long
132 strings. That's why the variable is global. */
134 void *store_last_get[NPOOLS];
136 /* These are purely for stats-gathering */
138 static int nbytes[NPOOLS]; /* current bytes allocated */
139 static int maxbytes[NPOOLS]; /* max number reached */
140 static int nblocks[NPOOLS]; /* current number of blocks allocated */
141 static int maxblocks[NPOOLS];
142 static int n_nonpool_blocks; /* current number of direct store_malloc() blocks */
143 static int max_nonpool_blocks;
144 static int max_pool_malloc; /* max value for pool_malloc */
145 static int max_nonpool_malloc; /* max value for nonpool_malloc */
148 #ifndef COMPILE_UTILITY
149 static const uschar * pooluse[NPOOLS] = {
150 [POOL_MAIN] = US"main",
151 [POOL_PERM] = US"perm",
152 [POOL_SEARCH] = US"search",
153 [POOL_TAINT_MAIN] = US"main",
154 [POOL_TAINT_PERM] = US"perm",
155 [POOL_TAINT_SEARCH] = US"search",
157 static const uschar * poolclass[NPOOLS] = {
158 [POOL_MAIN] = US"untainted",
159 [POOL_PERM] = US"untainted",
160 [POOL_SEARCH] = US"untainted",
161 [POOL_TAINT_MAIN] = US"tainted",
162 [POOL_TAINT_PERM] = US"tainted",
163 [POOL_TAINT_SEARCH] = US"tainted",
168 static void * internal_store_malloc(int, const char *, int);
169 static void internal_store_free(void *, const char *, int linenumber);
171 /******************************************************************************/
173 /* Test if a pointer refers to tainted memory.
175 Slower version check, for use when platform intermixes malloc and mmap area
176 addresses. Test against the current-block of all tainted pools first, then all
177 blocks of all tainted pools.
179 Return: TRUE iff tainted
183 is_tainted_fn(const void * p)
187 for (int pool = POOL_TAINT_BASE; pool < nelem(chainbase); pool++)
188 if ((b = current_block[pool]))
190 uschar * bc = US b + ALIGNED_SIZEOF_STOREBLOCK;
191 if (US p >= bc && US p <= bc + b->length) return TRUE;
194 for (int pool = POOL_TAINT_BASE; pool < nelem(chainbase); pool++)
195 for (b = chainbase[pool]; b; b = b->next)
197 uschar * bc = US b + ALIGNED_SIZEOF_STOREBLOCK;
198 if (US p >= bc && US p <= bc + b->length) return TRUE;
205 die_tainted(const uschar * msg, const uschar * func, int line)
207 log_write(0, LOG_MAIN|LOG_PANIC_DIE, "Taint mismatch, %s: %s %d\n",
213 /*************************************************
214 * Get a block from the current pool *
215 *************************************************/
217 /* Running out of store is a total disaster. This function is called via the
218 macro store_get(). It passes back a block of store within the current big
219 block, getting a new one if necessary. The address is saved in
223 size amount wanted, bytes
224 tainted class: set to true for untrusted data (eg. from smtp input)
225 func function from which called
226 linenumber line number in source file
228 Returns: pointer to store (panic on malloc failure)
232 store_get_3(int size, BOOL tainted, const char *func, int linenumber)
234 int pool = tainted ? store_pool + POOL_TAINT_BASE : store_pool;
236 /* Round up the size to a multiple of the alignment. Although this looks a
237 messy statement, because "alignment" is a constant expression, the compiler can
238 do a reasonable job of optimizing, especially if the value of "alignment" is a
239 power of two. I checked this with -O2, and gcc did very well, compiling it to 4
240 instructions on a Sparc (alignment = 8). */
242 if (size % alignment != 0) size += alignment - (size % alignment);
244 /* If there isn't room in the current block, get a new one. The minimum
245 size is STORE_BLOCK_SIZE, and we would expect this to be the norm, since
246 these functions are mostly called for small amounts of store. */
248 if (size > yield_length[pool])
250 int length = size <= STORE_BLOCK_SIZE ? STORE_BLOCK_SIZE : size;
251 int mlength = length + ALIGNED_SIZEOF_STOREBLOCK;
252 storeblock * newblock;
254 /* Sometimes store_reset() may leave a block for us; check if we can use it */
256 if ( (newblock = current_block[pool])
257 && (newblock = newblock->next)
258 && newblock->length < length
261 /* Give up on this block, because it's too small */
263 internal_store_free(newblock, func, linenumber);
267 /* If there was no free block, get a new one */
271 if ((nbytes[pool] += mlength) > maxbytes[pool])
272 maxbytes[pool] = nbytes[pool];
273 if ((pool_malloc += mlength) > max_pool_malloc) /* Used in pools */
274 max_pool_malloc = pool_malloc;
275 nonpool_malloc -= mlength; /* Exclude from overall total */
276 if (++nblocks[pool] > maxblocks[pool])
277 maxblocks[pool] = nblocks[pool];
279 newblock = internal_store_malloc(mlength, func, linenumber);
280 newblock->next = NULL;
281 newblock->length = length;
283 if (!chainbase[pool])
284 chainbase[pool] = newblock;
286 current_block[pool]->next = newblock;
289 current_block[pool] = newblock;
290 yield_length[pool] = newblock->length;
292 (void *)(CS current_block[pool] + ALIGNED_SIZEOF_STOREBLOCK);
293 (void) VALGRIND_MAKE_MEM_NOACCESS(next_yield[pool], yield_length[pool]);
296 /* There's (now) enough room in the current block; the yield is the next
299 store_last_get[pool] = next_yield[pool];
301 /* Cut out the debugging stuff for utilities, but stop picky compilers from
304 #ifndef COMPILE_UTILITY
306 debug_printf("---%d Get %6p %5d %-14s %4d\n", pool,
307 store_last_get[pool], size, func, linenumber);
308 #endif /* COMPILE_UTILITY */
310 (void) VALGRIND_MAKE_MEM_UNDEFINED(store_last_get[pool], size);
311 /* Update next pointer and number of bytes left in the current block. */
313 next_yield[pool] = (void *)(CS next_yield[pool] + size);
314 yield_length[pool] -= size;
315 return store_last_get[pool];
320 /*************************************************
321 * Get a block from the PERM pool *
322 *************************************************/
324 /* This is just a convenience function, useful when just a single block is to
329 func function from which called
330 linenumber line number in source file
332 Returns: pointer to store (panic on malloc failure)
336 store_get_perm_3(int size, BOOL tainted, const char *func, int linenumber)
339 int old_pool = store_pool;
340 store_pool = POOL_PERM;
341 yield = store_get_3(size, tainted, func, linenumber);
342 store_pool = old_pool;
348 /*************************************************
349 * Extend a block if it is at the top *
350 *************************************************/
352 /* While reading strings of unknown length, it is often the case that the
353 string is being read into the block at the top of the stack. If it needs to be
354 extended, it is more efficient just to extend within the top block rather than
355 allocate a new block and then have to copy the data. This function is provided
356 for the use of string_cat(), but of course can be used elsewhere too.
357 The block itself is not expanded; only the top allocation from it.
360 ptr pointer to store block
361 oldsize current size of the block, as requested by user
362 newsize new size required
363 func function from which called
364 linenumber line number in source file
366 Returns: TRUE if the block is at the top of the stack and has been
367 extended; FALSE if it isn't at the top of the stack, or cannot
372 store_extend_3(void *ptr, BOOL tainted, int oldsize, int newsize,
373 const char *func, int linenumber)
375 int pool = tainted ? store_pool + POOL_TAINT_BASE : store_pool;
376 int inc = newsize - oldsize;
377 int rounded_oldsize = oldsize;
379 /* Check that the block being extended was already of the required taint status;
380 refuse to extend if not. */
382 if (is_tainted(ptr) != tainted)
385 if (rounded_oldsize % alignment != 0)
386 rounded_oldsize += alignment - (rounded_oldsize % alignment);
388 if (CS ptr + rounded_oldsize != CS (next_yield[pool]) ||
389 inc > yield_length[pool] + rounded_oldsize - oldsize)
392 /* Cut out the debugging stuff for utilities, but stop picky compilers from
395 #ifndef COMPILE_UTILITY
397 debug_printf("---%d Ext %6p %5d %-14s %4d\n", pool, ptr, newsize,
399 #endif /* COMPILE_UTILITY */
401 if (newsize % alignment != 0) newsize += alignment - (newsize % alignment);
402 next_yield[pool] = CS ptr + newsize;
403 yield_length[pool] -= newsize - rounded_oldsize;
404 (void) VALGRIND_MAKE_MEM_UNDEFINED(ptr + oldsize, inc);
411 /*************************************************
412 * Back up to a previous point on the stack *
413 *************************************************/
415 /* This function resets the next pointer, freeing any subsequent whole blocks
416 that are now unused. Call with a cookie obtained from store_mark() only; do
417 not call with a pointer returned by store_get(). Both the untainted and tainted
418 pools corresposding to store_pool are reset.
421 r place to back up to
422 func function from which called
423 linenumber line number in source file
429 internal_store_reset(void * ptr, int pool, const char *func, int linenumber)
432 storeblock * b = current_block[pool];
433 char * bc = CS b + ALIGNED_SIZEOF_STOREBLOCK;
434 int newlength, count;
435 #ifndef COMPILE_UTILITY
436 int oldmalloc = pool_malloc;
439 /* Last store operation was not a get */
441 store_last_get[pool] = NULL;
443 /* See if the place is in the current block - as it often will be. Otherwise,
444 search for the block in which it lies. */
446 if (CS ptr < bc || CS ptr > bc + b->length)
448 for (b = chainbase[pool]; b; b = b->next)
450 bc = CS b + ALIGNED_SIZEOF_STOREBLOCK;
451 if (CS ptr >= bc && CS ptr <= bc + b->length) break;
454 log_write(0, LOG_MAIN|LOG_PANIC_DIE, "internal error: store_reset(%p) "
455 "failed: pool=%d %-14s %4d", ptr, pool, func, linenumber);
458 /* Back up, rounding to the alignment if necessary. When testing, flatten
459 the released memory. */
461 newlength = bc + b->length - CS ptr;
462 #ifndef COMPILE_UTILITY
465 assert_no_variables(ptr, newlength, func, linenumber);
466 if (f.running_in_test_harness)
468 (void) VALGRIND_MAKE_MEM_DEFINED(ptr, newlength);
469 memset(ptr, 0xF0, newlength);
473 (void) VALGRIND_MAKE_MEM_NOACCESS(ptr, newlength);
474 next_yield[pool] = CS ptr + (newlength % alignment);
475 count = yield_length[pool];
476 count = (yield_length[pool] = newlength - (newlength % alignment)) - count;
477 current_block[pool] = b;
479 /* Free any subsequent block. Do NOT free the first
480 successor, if our current block has less than 256 bytes left. This should
481 prevent us from flapping memory. However, keep this block only when it has
484 if ( yield_length[pool] < STOREPOOL_MIN_SIZE
486 && b->next->length == STORE_BLOCK_SIZE)
489 #ifndef COMPILE_UTILITY
491 assert_no_variables(b, b->length + ALIGNED_SIZEOF_STOREBLOCK,
494 (void) VALGRIND_MAKE_MEM_NOACCESS(CS b + ALIGNED_SIZEOF_STOREBLOCK,
495 b->length - ALIGNED_SIZEOF_STOREBLOCK);
503 int siz = b->length + ALIGNED_SIZEOF_STOREBLOCK;
504 #ifndef COMPILE_UTILITY
506 assert_no_variables(b, b->length + ALIGNED_SIZEOF_STOREBLOCK,
513 internal_store_free(b, func, linenumber);
516 /* Cut out the debugging stuff for utilities, but stop picky compilers from
519 #ifndef COMPILE_UTILITY
521 debug_printf("---%d Rst %6p %5d %-14s %4d %d\n", pool, ptr,
522 count + oldmalloc - pool_malloc,
523 func, linenumber, pool_malloc);
524 #endif /* COMPILE_UTILITY */
529 store_reset_3(rmark r, int pool, const char *func, int linenumber)
533 if (pool >= POOL_TAINT_BASE)
534 log_write(0, LOG_MAIN|LOG_PANIC_DIE,
535 "store_reset called for pool %d: %s %d\n", pool, func, linenumber);
537 log_write(0, LOG_MAIN|LOG_PANIC_DIE,
538 "store_reset called with bad mark: %s %d\n", func, linenumber);
540 internal_store_reset(*ptr, pool + POOL_TAINT_BASE, func, linenumber);
541 internal_store_reset(ptr, pool, func, linenumber);
547 /* Free tail-end unused allocation. This lets us allocate a big chunk
548 early, for cases when we only discover later how much was really needed.
550 Can be called with a value from store_get(), or an offset after such. Only
551 the tainted or untainted pool that serviced the store_get() will be affected.
553 This is mostly a cut-down version of internal_store_reset().
554 XXX needs rationalising
558 store_release_above_3(void *ptr, const char *func, int linenumber)
560 /* Search all pools' "current" blocks. If it isn't one of those,
561 ignore it (it usually will be). */
563 for (int pool = 0; pool < nelem(current_block); pool++)
565 storeblock * b = current_block[pool];
567 int count, newlength;
572 bc = CS b + ALIGNED_SIZEOF_STOREBLOCK;
573 if (CS ptr < bc || CS ptr > bc + b->length)
576 /* Last store operation was not a get */
578 store_last_get[pool] = NULL;
580 /* Back up, rounding to the alignment if necessary. When testing, flatten
581 the released memory. */
583 newlength = bc + b->length - CS ptr;
584 #ifndef COMPILE_UTILITY
587 assert_no_variables(ptr, newlength, func, linenumber);
588 if (f.running_in_test_harness)
590 (void) VALGRIND_MAKE_MEM_DEFINED(ptr, newlength);
591 memset(ptr, 0xF0, newlength);
595 (void) VALGRIND_MAKE_MEM_NOACCESS(ptr, newlength);
596 next_yield[pool] = CS ptr + (newlength % alignment);
597 count = yield_length[pool];
598 count = (yield_length[pool] = newlength - (newlength % alignment)) - count;
600 /* Cut out the debugging stuff for utilities, but stop picky compilers from
603 #ifndef COMPILE_UTILITY
605 debug_printf("---%d Rel %6p %5d %-14s %4d %d\n", pool, ptr, count,
606 func, linenumber, pool_malloc);
610 #ifndef COMPILE_UTILITY
612 debug_printf("non-last memory release try: %s %d\n", func, linenumber);
619 store_mark_3(const char *func, int linenumber)
623 if (store_pool >= POOL_TAINT_BASE)
624 log_write(0, LOG_MAIN|LOG_PANIC_DIE,
625 "store_mark called for pool %d: %s %d\n", store_pool, func, linenumber);
627 /* Stash a mark for the tainted-twin release, in the untainted twin. Return
628 a cookie (actually the address in the untainted pool) to the caller.
629 Reset uses the cookie to recover the t-mark, winds back the tainted pool with it
630 and winds back the untainted pool with the cookie. */
632 p = store_get_3(sizeof(void *), FALSE, func, linenumber);
633 *p = store_get_3(0, TRUE, func, linenumber);
640 /************************************************
642 ************************************************/
644 /* This function checks that the pointer it is given is the first thing in a
645 block, and if so, releases that block.
648 block block of store to consider
649 func function from which called
650 linenumber line number in source file
656 store_release_3(void * block, int pool, const char * func, int linenumber)
658 /* It will never be the first block, so no need to check that. */
660 for (storeblock * b = chainbase[pool]; b; b = b->next)
662 storeblock * bb = b->next;
663 if (bb && CS block == CS bb + ALIGNED_SIZEOF_STOREBLOCK)
665 int siz = bb->length + ALIGNED_SIZEOF_STOREBLOCK;
671 /* Cut out the debugging stuff for utilities, but stop picky compilers
672 from giving warnings. */
674 #ifndef COMPILE_UTILITY
676 debug_printf("-Release %6p %-20s %4d %d\n", (void *)bb, func,
677 linenumber, pool_malloc);
679 if (f.running_in_test_harness)
680 memset(bb, 0xF0, bb->length+ALIGNED_SIZEOF_STOREBLOCK);
681 #endif /* COMPILE_UTILITY */
690 /************************************************
692 ************************************************/
694 /* Allocate a new block big enough to expend to the given size and
695 copy the current data into it. Free the old one if possible.
697 This function is specifically provided for use when reading very
698 long strings, e.g. header lines. When the string gets longer than a
699 complete block, it gets copied to a new block. It is helpful to free
700 the old block iff the previous copy of the string is at its start,
701 and therefore the only thing in it. Otherwise, for very long strings,
702 dead store can pile up somewhat disastrously. This function checks that
703 the pointer it is given is the first thing in a block, and that nothing
704 has been allocated since. If so, releases that block.
711 Returns: new location of data
715 store_newblock_3(void * block, BOOL tainted, int newsize, int len,
716 const char * func, int linenumber)
718 int pool = tainted ? store_pool + POOL_TAINT_BASE : store_pool;
719 BOOL release_ok = !tainted && store_last_get[pool] == block;
722 #if !defined(MACRO_PREDEF) && !defined(COMPILE_UTILITY)
723 if (is_tainted(block) != tainted)
724 die_tainted(US"store_newblock", CUS func, linenumber);
727 newtext = store_get(newsize, tainted);
728 memcpy(newtext, block, len);
729 if (release_ok) store_release_3(block, pool, func, linenumber);
730 return (void *)newtext;
736 /*************************************************
738 *************************************************/
740 /* Running out of store is a total disaster for exim. Some malloc functions
741 do not run happily on very small sizes, nor do they document this fact. This
742 function is called via the macro store_malloc().
745 size amount of store wanted
746 func function from which called
747 line line number in source file
749 Returns: pointer to gotten store (panic on failure)
753 internal_store_malloc(int size, const char *func, int line)
757 if (size < 16) size = 16;
759 if (!(yield = malloc((size_t)size)))
760 log_write(0, LOG_MAIN|LOG_PANIC_DIE, "failed to malloc %d bytes of memory: "
761 "called from line %d in %s", size, line, func);
763 if ((nonpool_malloc += size) > max_nonpool_malloc)
764 max_nonpool_malloc = nonpool_malloc;
766 /* Cut out the debugging stuff for utilities, but stop picky compilers from
769 #ifndef COMPILE_UTILITY
770 /* If running in test harness, spend time making sure all the new store
771 is not filled with zeros so as to catch problems. */
773 if (f.running_in_test_harness)
774 memset(yield, 0xF0, (size_t)size);
775 DEBUG(D_memory) debug_printf("--Malloc %6p %5d bytes\t%-14s %4d\tpool %5d nonpool %5d\n",
776 yield, size, func, line, pool_malloc, nonpool_malloc);
777 #endif /* COMPILE_UTILITY */
783 store_malloc_3(int size, const char *func, int linenumber)
785 if (n_nonpool_blocks++ > max_nonpool_blocks)
786 max_nonpool_blocks = n_nonpool_blocks;
787 return internal_store_malloc(size, func, linenumber);
791 /************************************************
793 ************************************************/
795 /* This function is called by the macro store_free().
798 block block of store to free
799 func function from which called
800 linenumber line number in source file
806 internal_store_free(void * block, const char * func, int linenumber)
808 #ifndef COMPILE_UTILITY
810 debug_printf("----Free %6p %-20s %4d\n", block, func, linenumber);
811 #endif /* COMPILE_UTILITY */
816 store_free_3(void * block, const char * func, int linenumber)
819 internal_store_free(block, func, linenumber);
822 /******************************************************************************/
823 /* Stats output on process exit */
827 #ifndef COMPILE_UTILITY
830 debug_printf("----Exit nonpool max: %3d kB in %d blocks\n",
831 (max_nonpool_malloc+1023)/1024, max_nonpool_blocks);
832 debug_printf("----Exit npools max: %3d kB\n", max_pool_malloc/1024);
833 for (int i = 0; i < NPOOLS; i++)
834 debug_printf("----Exit pool %d max: %3d kB in %d blocks\t%s %s\n",
835 i, maxbytes[i]/1024, maxblocks[i], poolclass[i], pooluse[i]);